Haoyu Wang, Assistant Professor

The publisher:王雪Release time:2018-08-20浏览次数:71

Haoyu Wang, Assistant Professor

Tel:  (021) 20685082
Email: wanghy.shanghaitech@@gmail.com,wanghy@@shanghaitech.edu.cn
Office: Room 1D-301C, SIST Building
Major: EE
Website: http://pearl.shanghaitech.edu.cn/
Haoyu Wang Research Group Recruitment (Click Here)

RESEARCH INTERESTS

Power electronics

Plug-in electric vehicles

Renewable energy systems

Power management solutions for emerging fields including big data, AI, IoT, and etc. 


BIOGRAPHY

Haoyu Wang received his bachelor degree in electrical engineering with distinguished honor from Zhejiang University in Hangzhou, China. He received his master degree and Ph.D. both in electrical engineering from the University of Maryland, College Park, MD, USA. He joined in the School of Information Science and Technology as a tenure track assistant professor, PI in September 2014. His research interests include power electronics, plug-in electric and hybrid electric vehicles, renewable energy systems, power management solutions for emerging fields including big data, AI, IoT, and etc. He is the author and coauthor of 45 peer-reviewed conference and journal papers. As an inventor, he filed 4 China patents.

Dr. Wang is a senior member of IEEE and a senior member of China Power Supply Society. He is an Associate Editor for IEEE Trans. Transp. Electrif., and an Associate Editor for CPSS Trans. on Power Electron. and Appl. Since 2016, he has served as the track chair for IEEE APEC. He served as the session chairs for prestigious conferences including IEEE APEC, IECON, ECCE-Asia, ITEC, and CPSS annual meeting. He is a reviewer for top-tier journals including IEEE Trans. on Power Electron. and IEEE Trans. on Ind. Electron.

His undergraduate course “Intro. to Info. Sci. and Tech.” is recognized by the Shanghai Municipal Government as “excellentcourse” (2018). He is the recipient of ShanghaiTech Outstanding Employee (2017), SIST Best Teaching Award (2017), Distinguished Dissertation Fellowship from the University of Maryland (2014), IEEE APEC Travel Grant (2018, 2014), NSC fellowship (2009-2013), Finalist of Qualcomm Innovation Fellowship (2012), and CKC Distinguished Graduate from Zhejiang University (2009).  His graduate students received honors including China National Scholarship, Distinguished Graduate from Shanghai Municipal Government, Distinguished Graduate from the University of Chinese Academy of Sciences, and etc. 


SELECTED PUBLICATIONS

[1] Z. Li, B. Xue, and H. Wang*, An interleaved secondary-side modulated LLC resonant converter for wide output range applications, IEEE Transactions on Industrial Electronics, in press.

[2] J. Deng, H. Wang*, and M. Shang, A ZVS three-port dc/dc converter for high-voltage bus based photovoltaic systems, IEEE Transactions on Power Electronics, in press.

[3] C. Li, H. Wang*, and M. Shang, A five-switch bridge based reconfigurable LLC converter for deeply-depleted PEV charging applications, IEEE Transactions on Power Electronics, in press.

[4] L. Yu and H. Wang*, A novel dual-input ZVS dc/dc converter for low-power energy harvesting applications, IEEE Journal of Emerging and Selected Topics in Power Electronics, in press.

[5] X. Lu, Y. Chen, M. Fu, and H. Wang*, Multi-objective optimization based real-time control strategy for battery/ultracapacitor hybrid energy management systems, IEEE Access, vol. 7, no. 1, pp. 11640 - 11650, Dec. 2019.

[6] X. Lu and H. Wang*, A highly efficient multifunctional power electronic interface for PEV hybrid energy management systems, IEEE Access, vol. 7, no. 1, pp. 8964–8974, Dec. 2019.

[7] Z. Li, S. Dusmez, and H. Wang*, A novel soft-switching secondary-side modulated multioutput dc–dc converter with extended ZVS range, IEEE Transactions on Power Electronics, vol. 34, no. 1, pp. 106-116, Jan. 2019.

[8] M. Shang and H. Wang*, A voltage quadrupler rectifier based pulsewidth modulated LLC converter with wide output range, IEEE Transactions on Industry Applications, vol. 54, no. 6, pp. 6159-6168, Nov./Dec. 2018.

[9] M. Shang, H. Wang*, and Q. Cao, Reconfigurable LLC topology with squeezed frequency span for high-voltage bus-based photovoltaic systems, IEEE Transactions on Power Electronics, vol. 33, no. 5, pp. 3688-3692, May 2018.

[10] H. Wang* and Z. Li, A PWM LLC type resonant converter adapted to wide output range in PEV charging applications, IEEE Transactions on Power Electronics, vol. 33, no. 5, pp. 3791-3801, May 2018.

[11] L. Yu, H. Wang*, and A. Khaligh, A discontinuous conduction mode single stage step-up rectifier for low voltage energy harvesting applications, IEEE Transactions on Power Electronics, vol. 32, no. 8, pp. 6161-6169, Aug. 2017.

[12] H. Wang*, M. Shang, and A. Khaligh, A PSFB based integrated PEV onboard charger with extended ZVS range and zero duty cycle loss, IEEE Transactions on Industry Applications, vol. 53, no. 1, pp. 585-595, Jan./Feb. 2017.

[13] C. Shi, H. Wang, S. Dusmez, and A. Khaligh*, A SiC-based high-efficiency isolated onboard PEV charger with ultrawide dc-link voltage range, IEEE Transactions on Industry Applications, vol. 53, no. 1, pp. 501-511, Jan./Feb. 2017.

[14] C. Shi, A. Khaligh*, and H. Wang, Interleaved SEPIC power factor preregulator using coupled inductors in discontinuous conduction mode with wide output voltage, IEEE Transactions on Industry Applications, vol. 52, no. 4, pp. 3461-3471, Jul./Aug. 2016.

[15] H. Wang, S. Dusmez, and A. Khaligh*, Maximum efficiency point tracking technique for LLC based PEV chargers through variable dc link control, IEEE Transactions on Industrial Electronics, vol. 61, no. 11, pp. 6041–6049, Nov. 2014.

[16] H.Wang, S. Dusmez, and A. Khaligh*, Design and analysis of a full bridge LLC based PEV charger optimized for wide battery voltage range, IEEE Transactions on Vehicular Technology, vol. 63, no. 4, pp. 1603–1613, Apr. 2014.

 [17] H. Wang, A. Hasanzadeh, and A. Khaligh*, Transportation electrification: conductive charging of electrified vehicles, IEEE Electrification Magazine, vol. 1, no. 2, pp. 46–58, Dec. 2013.

[18] H. Wang, Y. Tang, and A. Khaligh*, A bridgeless boost rectifier for low-voltage energy harvesting applications, IEEE Transactions on Power Electronics, vol. 28, no. 11, pp. 5206–5214, Nov. 2013.